CN220062649U - Energy-saving cooling tower - Google Patents

Abstract

The utility model discloses an energy-saving cooling tower which comprises a cooling tower body, a support frame, a double-shaft motor, fan blades and a filter screen, wherein the support frame is fixedly arranged in the cooling tower body, the double-shaft motor is fixedly arranged at the bottom end of the support frame, the fan blades are rotatably arranged at the top end of the support frame, the top ends of the double-shaft motor penetrate through the support frame and are connected with the fan blades, the filter screen is arranged at the top end of the cooling tower body, the filter screen is aligned with the fan blades up and down, a gear lack is arranged at the bottom end of the double-shaft motor, and a connecting rod is slidably arranged at the top end of the cooling tower body. The utility model can drive the rack to move through the rotation of the gear lack, further drive the connecting rod to move, push the cleaning rod to swing, and can facilitate the movement and the reset of the connecting rod through the elasticity of the spring, further facilitate the gear lack to push the rack to move again, and can facilitate the rotation and the reset of the cleaning rod through the torsion of the torsion spring, thereby facilitating the circulation cleaning of the filter screen.

Description

Energy-saving cooling tower

Technical Field

The utility model relates to the technical field of cooling towers, in particular to an energy-saving cooling tower.

Background

The cooling tower utilizes water to flow and contact with air to perform cold and heat exchange to generate steam, the steam volatilizes and takes away heat to achieve the function of evaporation and heat dissipation, and the outside air is generally pumped into the cooling tower through a fan at the top end of the cooling tower body to perform heat exchange, so that the function of evaporation and heat dissipation is achieved.

At present, in order to avoid that external dust enters the cooling tower to cause the heat radiation effect to be reduced, a filter screen is generally installed at the top end of a main body of the cooling tower to filter dust in air, but the dust can cause blocking to the filter screen, so that the volume of the air entering the cooling tower in unit time is reduced, and in order to ensure that sufficient air flow enters the cooling tower, the rotating speed of fan blades is required to be increased, and then the energy consumption of the cooling tower is increased.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides an energy-saving cooling tower.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an energy-saving cooling tower, includes cooling tower main part, support frame, biax motor, flabellum and filter screen, the inside fixed mounting of cooling tower main part has the support frame, and support frame bottom fixed mounting has the biax motor, the support frame top rotates installs the flabellum, and biax motor top passes the support frame and be connected with the flabellum, the filter screen is installed on cooling tower main part top, and the filter screen aligns from top to bottom with the flabellum, the gear that lacks is installed to biax motor bottom, cooling tower main part top slidable mounting has the connecting rod, and connecting rod one end extends to cooling tower main part inside and fixed mounting have the rack, the rack meshes with the gear that lacks, cooling tower main part one end fixed mounting has the fixed block, and the fixed block inside rotation installs the rotation round pin, rotation round pin top fixed mounting has the cleaning rod, the cleaning rod bottom is laminated mutually with the filter screen top, the connecting rod other end is laminated mutually with the cleaning rod.

Further, one end, close to the cleaning rod, of the connecting rod is rotatably provided with a rotating roller, and the annular side surface of the rotating roller is attached to the side surface of the cleaning rod.

Further, a fixed cylinder is arranged on the annular side face of the connecting rod, a T-shaped rod is fixedly arranged at one end of the fixed cylinder, a supporting block is fixedly arranged at the top end of the cooling tower main body, and one end of the T-shaped rod penetrates through the supporting block.

Further, a spring is arranged on the annular side face of the T-shaped rod, and two ends of the spring are respectively fixed on the T-shaped rod and the supporting block.

Further, a torsion spring is fixedly arranged on the annular side face of the rotating pin, and the outer side of the torsion spring is fixedly arranged inside the fixed block.

Furthermore, the inside three square of even fixed mounting of cooling tower main part, square top is laminated mutually with the filter screen bottom.

Further, countersunk head bolts are arranged at the top ends of the filter screens, the bottom ends of the countersunk head bolts penetrate through the filter screens and extend into the square, and threaded holes are formed in the top ends of the square.

Further, the circular through hole is processed in cooling tower main part one end, and circular through hole inside slidable mounting has the connecting rod.

The beneficial effects of the utility model are as follows:

1. the rack is driven to move through the gear lack rotation, the connecting rod is driven to move, the cleaning rod is pushed to swing, the double-shaft motor works to drive the gear lack rotation, the gear lack initial position is meshed with the rack, the gear lack rotation drives the rack to move, the rack moves to drive the connecting rod to move, the connecting rod moves to drive the rotating roller to move, the cleaning rod is pushed to surround and drive the rotating pin to rotate, and the cleaning rod rotates to clean the top end of the filter screen.

2. The elastic force of the spring is convenient for the movement of the connecting rod to reset, and then the gear lack is convenient for push the rack to move again, the connecting rod moves and drives the T-shaped rod to move along the supporting block through the fixed cylinder, the T-shaped rod moves the spring to extrude, when the gear lack rotates 180 degrees, the gear lack is not meshed with the rack, and under the action of the elastic force of the spring, the T-shaped rod moves and drives the connecting rod and the rack to move to reset.

3. The torsion through the torsional spring is convenient for clean pole rotate reset, and then is convenient for clear up the filter screen circularly, and the connecting rod removes and promotes clean pole around and drive the rotation round pin and rotate, and clean pole rotates and clear up the filter screen top, rotates the round pin and extrudees the torsional spring for the torsional spring produces the torsion, and the torsion of torsional spring is convenient for clean pole reverse rotation clear up the filter screen once more, and then is convenient for carry out periodic cleaning to the filter screen.

Drawings

FIG. 1 is a schematic perspective view of an energy-saving cooling tower according to the present utility model;

FIG. 2 is a schematic view of a partial cross-sectional structure of an energy-saving cooling tower according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the energy-saving cooling tower at A;

fig. 4 is an enlarged schematic view of a B-site structure of an energy-saving cooling tower according to the present utility model.

In the figure: 1. a cooling tower main body; 2. a support frame; 3. a biaxial motor; 4. a fan blade; 5. a filter screen; 6. a gear-missing; 7. a rack; 8. a connecting rod; 9. a rotating roller; 10. a fixed block; 11. a rotation pin; 12. a torsion spring; 13. a cleaning lever; 14. a support block; 15. a fixed cylinder; 16. a T-shaped rod; 17. a spring; 18. a square block; 19. countersunk bolts.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

Referring to fig. 1-4, an energy-saving cooling tower, including cooling tower main part 1, support frame 2, biax motor 3, flabellum 4 and filter screen 5, cooling tower main part 1 inside has support frame 2 through the bolt mounting, and support frame 2 bottom has biax motor 3 through the bolt mounting, support frame 2 top rotates and installs flabellum 4, and biax motor 3 top passes support frame 2 and is connected with flabellum 4, biax motor 3 work drives flabellum 4 and rotates, filter screen 5 is installed on cooling tower main part 1 top, and filter screen 5 aligns from top to bottom with flabellum 4, filter screen 5's design is convenient for filter the impurity in the air, the gear lack 6 is installed to biax motor 3 bottom, cooling tower main part 1 top slidable mounting has connecting rod 8, and connecting rod 8 one end extends to cooling tower main part 1 inside and welds and have rack 7, rack 7 meshes with gear lack 6 mutually, gear lack 6 rotates and drives rack 7 and removes, cooling tower main part 1 one end welding has fixed block 10, and fixed block 10 internally rotating installs rotating pin 11, rotating pin 11 top fixedly installs cleaning rod 13, filter screen 13 is convenient for install on the filter screen 13, the design is convenient for clean top end of rod 13 is convenient for clean top end and the filter screen 13 is clean with the connecting rod 5, and the other end is convenient for clean the end is clean to be laminated mutually, the end is convenient for clean to the connecting rod 13, and the other end is convenient for clean and clean the end is attached to the end and clean 5.

In the utility model, it is to be noted that a rotating roller 9 is rotatably installed at one end of a connecting rod 8 close to a cleaning rod 13, the annular side surface of the rotating roller 9 is attached to the side surface of the cleaning rod 13, the design of the rotating roller 9 reduces the friction force between the connecting rod 8 and the cleaning rod 13, so that the connecting rod 8 is convenient to move and push the cleaning rod 13 to swing, a fixed cylinder 15 is installed on the annular side surface of the connecting rod 8, a T-shaped rod 16 is welded at one end of the fixed cylinder 15, a supporting block 14 is installed at the top end of a cooling tower main body 1 through a screw, one end of the T-shaped rod 16 penetrates through the supporting block 14, the T-shaped rod 16, the supporting block 14 and the fixed cylinder 15 are convenient for sliding installation of the connecting rod 8, a spring 17 is assembled on the annular side surface of the T-shaped rod 16, two ends of the spring 17 are respectively welded on the T-shaped rod 16 and the supporting block 14, the design of the spring 17 is convenient for the gear lack 6 to be disengaged from a rack 7 after rotating 180 DEG, the rack 7 is reset with the movement of the connecting rod 8, a torsion spring 12 is welded on the annular side surface of the rotating pin 11, the torsion spring 12 is welded on the annular side surface of the torsion spring 12, the torsion spring 12 is inside the fixed block 10, and the torsion spring 12 is convenient for the rotation reset of the cleaning rod 13.

In particular, three square 18 are evenly installed through the screw in cooling tower main part 1, square 18 top is laminated mutually with filter screen 5 bottom, the installation of placing of filter screen 5 is convenient for in the design of square 18, countersunk head bolt 19 is installed on filter screen 5 top, countersunk head bolt 19 bottom passes filter screen 5 and extends to square 18 inside, threaded hole is seted up on square 18 top, countersunk head bolt 19's design is convenient for fix filter screen 5, circular through-hole has been processed to cooling tower main part 1 one end, and circular through-hole internally sliding mounting has connecting rod 8, this design is convenient for connecting rod 8 pass cooling tower main part 1.

Working principle: when the filter screen 5 needs to be cleaned, the double-shaft motor 3 is started, the double-shaft motor 3 works to drive the fan blades 4 to rotate, the fan blades 4 rotate to enable air to flow, the air flows into the cooling tower main body 1 through the filter screen 5, dust in the air is filtered and cleaned, the double-shaft motor 3 drives the gear deficiency 6 to rotate while working, the initial position of the gear deficiency 6 is meshed with the rack 7, the gear deficiency 6 rotates to drive the rack 7 to move, the rack 7 moves to drive the connecting rod 8 to move, the connecting rod 8 moves to drive the rotating roller 9 to move, the cleaning rod 13 is further pushed to rotate around and drive the rotating pin 11, the cleaning rod 13 rotates to clean the top end of the filter screen 5, the rotating pin 11 rotates to squeeze the torsion spring 12, the torsion spring 12 generates torsion force, the connecting rod 8 moves to drive the T-shaped rod 16 to move along the supporting block 14 through the fixed cylinder 15, the spring 17 generates elasticity, after the gear deficiency 6 rotates 180 DEG, the gear deficiency 6 is not meshed with the rack 7, the T-shaped rod 16 moves to drive the connecting rod 8 and the rack 7 to move to reset, the connecting rod 8 moves to reset, the cleaning rod 13 is separated from the cleaning rod 13, the torsion spring 13 rotates reversely, the torsion spring 17 rotates reversely, the cleaning rod is required to clean the filter screen 5, and the air is further cooled down, the volume is kept stable, and the cleaning effect is improved, and the cleaning effect of the air is achieved, and the cleaning effect is achieved.

Furthermore, the terms "mounted," "configured," "provided," "connected," "coupled," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components.

Claims (8)

1. The utility model provides an energy-saving cooling tower, includes cooling tower main part (1), support frame (2), biax motor (3), flabellum (4) and filter screen (5), cooling tower main part (1) internally mounted has support frame (2), and support frame (2) bottom fixed mounting has biax motor (3), support frame (2) top rotates and installs flabellum (4), and biax motor (3) top passes support frame (2) and be connected with flabellum (4), filter screen (5) are installed on cooling tower main part (1) top, and filter screen (5) are aligned from top to bottom with flabellum (4), a serial communication port, absence gear (6) are installed to biax motor (3) bottom, cooling tower main part (1) top slidable mounting has connecting rod (8), and connecting rod (8) one end extends to cooling tower main part (1) inside and fixed mounting have rack (7), rack (7) meshes with absence gear (6) mutually, cooling tower main part (1) one end fixed mounting has fixed block (10), and fixed block (10) inside rotation installs rotation round pin (11), filter screen (13) are equipped with clean top (13) mutually, the other end of the connecting rod (8) is attached to the cleaning rod (13).

2. An energy-saving cooling tower according to claim 1, characterized in that the end of the connecting rod (8) close to the cleaning rod (13) is rotatably provided with a rotating roller (9), and the annular side surface of the rotating roller (9) is attached to the side surface of the cleaning rod (13).

3. An energy-saving cooling tower according to claim 1, characterized in that a fixed cylinder (15) is arranged on the annular side surface of the connecting rod (8), a T-shaped rod (16) is fixedly arranged at one end of the fixed cylinder (15), a supporting block (14) is fixedly arranged at the top end of the cooling tower main body (1), and one end of the T-shaped rod (16) penetrates through the supporting block (14).

4. An energy-saving cooling tower according to claim 3, characterized in that the annular side of the T-shaped rod (16) is provided with springs (17), and the two ends of the springs (17) are respectively fixed on the T-shaped rod (16) and the supporting block (14).

5. An energy-saving cooling tower according to claim 1, characterized in that the torsion spring (12) is fixedly mounted on the annular side surface of the rotation pin (11), and the outer side of the torsion spring (12) is fixedly mounted inside the fixed block (10).

6. An energy-saving cooling tower according to claim 1, wherein three blocks (18) are uniformly and fixedly arranged in the cooling tower main body (1), and the top ends of the blocks (18) are attached to the bottom ends of the filter screens (5).

7. The energy-saving cooling tower according to claim 6, wherein a countersunk bolt (19) is mounted at the top end of the filter screen (5), the bottom end of the countersunk bolt (19) penetrates through the filter screen (5) and extends into the square (18), and a threaded hole is formed in the top end of the square (18).

8. An energy-saving cooling tower according to claim 1, characterized in that one end of the cooling tower body (1) is provided with a circular through hole, and a connecting rod (8) is slidably arranged in the circular through hole.